Astronomy and Astrophysics – Astrophysics
Scientific paper
Mar 1991
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991stin...9130065t&link_type=abstract
Presented at the International Conference on Trends in Astroparticle Physics, Santa Monica, CA, 26 Nov. - 1 Dec. 1990
Astronomy and Astrophysics
Astrophysics
Background Radiation, Big Bang Cosmology, Dark Matter, Galactic Evolution, Intergalactic Media, Missing Mass (Astrophysics), Baryons, Relic Radiation, Universe
Scientific paper
What is the quantity and composition of material in the universe? This is one of the most fundamental questions we can ask about the universe, and its answer bears on a number of important issues including the formation of structure in the universe, and the ultimate fate and the earliest history of the universe. Moreover, answering this question could lead to the discovery of new particles, as well as shedding light on the nature of the fundamental interactions. At present, only a partial answer is at hand: most of the material in the universe does not give off detectable radiation, i.e., is dark; the dark matter associated with bright galaxies contributes somewhere between 10 and 30 percent of the critical density (by comparison luminous matter contributes less than 1 percent); baryonic matter contributes between 1.1 and 12 percent of critical. The case for the spatially-flat, Einstein-de Sitter model is supported by three compelling theoretical arguments -- structure formation, the temporal Copernican principle, and inflation -- and by some observational data. If (Omega) is indeed unity--or even just significantly greater than 0.1--then there is a strong case for a universe comprised of nonbaryonic matter. There are three well motivated particle dark-matter candidates: an axion of mass 10-6 eV to 10-4 eV; a neutralino of mass 10 GeV to about 3 TeV; or a neutrino of mass 20 eV to 90 eV. All three possibilities can be tested by experiments that are either being planned or are underway.
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